Advances in Computational Fluid Dynamics

Computational fluid dynamics (CFD) is a branch of fluid mechanics that uses numerical analysis and data structures to solve and analyze problems that involve fluid flows. Computers are used to perform the calculations required to simulate the interaction of liquids and gases with surfaces defined by boundary conditions. With high-speed supercomputers, better solutions can be achieved. Ongoing research yields software that improves the accuracy and speed of complex simulation scenarios such as transonic or turbulent flows. Initial experimental validation of such software is performed using a wind tunnel with the final validation coming in full-scale testing, e.g. flight tests.

In the present book, fifteen typical literatures about Computational Fluid Dynamics published on international authoritative journals were selected to introduce the worldwide newest progress, which contains reviews or original researches on A computational fluid dynamics, multi-domain dynamics, molecular dynamics, etc. We hope this book can demonstrate advances in Computational Fluid Dynamics as well as give references to the researchers, students and other related people.

Components of the Book:
  • Chapter 1
    Structure and chemistry of liquid Al–Cu alloys: molecular dynamics study versus thermodynamics-based modeling
  • Chapter 2
    Influence of outflow cannula geometry on hemodynamics in patients with partial circulatory support : A computational fluid dynamics (CFD)-study
  • Chapter 3
    Monitoring and modelling concept for ecological optimized harbour dredging and fine sediment disposal in large rivers
  • Chapter 4
    Compressible Fluids Interacting with a Linear-Elastic Shell
  • Chapter 5
    Effective particle size from molecular dynamics simulations in fluids
  • Chapter 6
    Particle-based solid for non-smooth multi-domain dynamics
  • Chapter 7
    Leading-edge flow criticality as a governing factor in leading-edge vortex initiation in unsteady airfoil flows
  • Chapter 8
    Instantaneous transport of a passive scalar in a turbulent separated flow
  • Chapter 9
    Onset of sediment transport in mono- and bidisperse beds under turbulent shear flow
  • Chapter 10
    Arterial pulse attenuation prediction using the decaying rate of a pressure wave in a viscoelastic material model
  • Chapter 11
    Finite-time Lyapunov dimension and hidden attractor of the Rabinovich system
  • Chapter 12
    Parametric design velocity computation for CAD-based design optimization using adjoint methods
  • Chapter 13
    Micromechanical study of the load transfer in a polycaprolactone–collagen hybrid scaffold when subjected to unconfined and confined compression
  • Chapter 14
    Pruning of recurrent neural models: an optimal brain damage approach
  • Chapter 15
    Modelling peeling- and pressure-driven propagation of arterial dissection
Readership: Students, academics, teachers and other people attending or interested in Advances in Computational Fluid Dynamics.
Marcela E. Trybula, Institute of Metallurgy and Materials Science, Polish Academy of Sciences, Kraków, Poland

Jennifer Engelke, Department of Cardiac Surger University, Hospital Heidelberg, Heidelberg, Germany

Dominic Breit, Department of Mathematics Heriot-Watt, University Riccarton, Edinburgh, UK

Kiran Ramesh, Aerospace Sciences Division, School of Engineering, University of Glasgow, Glasgow, UK

Dheeraj Agarwal, School of Mechanical and Aerospace Engineering, Queen’s University Belfast, Belfast, UK

P. Ouro, Hydro-environmental Research Centre, School of Engineering, Cardiff University, Cardiff, UK

and more...
This Book

336pp. Published February 2018

Scientific Research Publishing, Inc., USA.

Category:Computer Science & Communications

ISBN: 978-1-61896-515-8

(Hardcover) USD 109.00

ISBN: 978-1-61896-515-8

(Paperback) USD 89.00

Authors/Editors Price: 40% off
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